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在关键发育窗口期改变肠道微生物群会产生持久的代谢后果。

Altering the intestinal microbiota during a critical developmental window has lasting metabolic consequences.

作者信息

Cox Laura M, Yamanishi Shingo, Sohn Jiho, Alekseyenko Alexander V, Leung Jacqueline M, Cho Ilseung, Kim Sungheon G, Li Huilin, Gao Zhan, Mahana Douglas, Zárate Rodriguez Jorge G, Rogers Arlin B, Robine Nicolas, Loke P'ng, Blaser Martin J

机构信息

Department of Microbiology, NYU Langone Medical Center, New York, NY 10016, USA; Department of Medicine, NYU Langone Medical Center, New York, NY 10016, USA.

Department of Medicine, NYU Langone Medical Center, New York, NY 10016, USA.

出版信息

Cell. 2014 Aug 14;158(4):705-721. doi: 10.1016/j.cell.2014.05.052.

DOI:10.1016/j.cell.2014.05.052
PMID:25126780
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4134513/
Abstract

Acquisition of the intestinal microbiota begins at birth, and a stable microbial community develops from a succession of key organisms. Disruption of the microbiota during maturation by low-dose antibiotic exposure can alter host metabolism and adiposity. We now show that low-dose penicillin (LDP), delivered from birth, induces metabolic alterations and affects ileal expression of genes involved in immunity. LDP that is limited to early life transiently perturbs the microbiota, which is sufficient to induce sustained effects on body composition, indicating that microbiota interactions in infancy may be critical determinants of long-term host metabolic effects. In addition, LDP enhances the effect of high-fat diet induced obesity. The growth promotion phenotype is transferrable to germ-free hosts by LDP-selected microbiota, showing that the altered microbiota, not antibiotics per se, play a causal role. These studies characterize important variables in early-life microbe-host metabolic interaction and identify several taxa consistently linked with metabolic alterations. PAPERCLIP:

摘要

肠道微生物群的获得始于出生,一系列关键微生物会逐渐形成一个稳定的微生物群落。在成熟过程中,低剂量抗生素暴露会破坏微生物群,进而改变宿主代谢和肥胖状况。我们现在发现,从出生起给予低剂量青霉素(LDP)会引发代谢改变,并影响参与免疫的基因在回肠中的表达。仅在生命早期给予的LDP会短暂扰乱微生物群,这足以对身体组成产生持续影响,表明婴儿期的微生物群相互作用可能是长期宿主代谢效应的关键决定因素。此外,LDP会增强高脂饮食诱导的肥胖效应。LDP选择的微生物群可将生长促进表型转移给无菌宿主,这表明是微生物群的改变而非抗生素本身起到了因果作用。这些研究明确了生命早期微生物与宿主代谢相互作用中的重要变量,并确定了几个与代谢改变始终相关的分类群。回形针:

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